GeoFairy: Towards a one-stop and location based Service for Geospatial Information Retrieval

GeoFairy: Towards a one-stop and location based Service for Geospatial Information Retrieval. Sun, Z., Di, L., Heo, G., Zhang, C., Fang, H., Yue, P., Jiang, L., Tan, X., Guo, L., & Lin, L. Computers, Environment and Urban Systems, 62:156–167, 2017.

Paper doi abstract bibtex

It is still a great challenge to efficiently deliver dynamic and heterogeneous Earth observation (EO) information to users based on their real time locations. However, the rapidly evolving techniques create a chance to meet the challenge. This paper proposes a framework to realize a one-stop and location based service (LBS) for geospatial information (GI) retrieval on mobile platforms. The framework originally integrates a number of state-of-the-art techniques with geospatial data resources and let them cooperate together to provide a robust and highly available LBS. Cloud platform is used to deploy the server module. A location enabled load balancing algorithm is presented to balance the cloud instance VMs on behalf of LBS. A system named GeoFairy is implemented. It provides a one-stop service for gathering and delivering twelve kinds of GI on real time locations. Two Apps are built for the major mobile ecosystems: iOS and Android. Many tests, including a stress test, have been made via a number of mobile devices at various locations. The results demonstrate that GeoFairy is capable of one-stop delivering real-time GI to users and significantly reducing costs on information searching and retrieving. This feature is very helpful in many scenarios such as disaster responding and military actions. This research paves a way on both theoretical and practical aspects for researchers and developers to realize operational mobile applications for one stop and location based GI retrieval.

@article{sun_geofairy:_2017,
	title = {{GeoFairy}: {Towards} a one-stop and location based {Service} for {Geospatial} {Information} {Retrieval}},
	volume = {62},
	issn = {01989715},
	url = {http://dx.doi.org/10.1016/j.compenvurbsys.2016.11.007},
	doi = {10.1016/j.compenvurbsys.2016.11.007},
	abstract = {It is still a great challenge to efficiently deliver dynamic and heterogeneous Earth observation (EO) information to users based on their real time locations. However, the rapidly evolving techniques create a chance to meet the challenge. This paper proposes a framework to realize a one-stop and location based service (LBS) for geospatial information (GI) retrieval on mobile platforms. The framework originally integrates a number of state-of-the-art techniques with geospatial data resources and let them cooperate together to provide a robust and highly available LBS. Cloud platform is used to deploy the server module. A location enabled load balancing algorithm is presented to balance the cloud instance VMs on behalf of LBS. A system named GeoFairy is implemented. It provides a one-stop service for gathering and delivering twelve kinds of GI on real time locations. Two Apps are built for the major mobile ecosystems: iOS and Android. Many tests, including a stress test, have been made via a number of mobile devices at various locations. The results demonstrate that GeoFairy is capable of one-stop delivering real-time GI to users and significantly reducing costs on information searching and retrieving. This feature is very helpful in many scenarios such as disaster responding and military actions. This research paves a way on both theoretical and practical aspects for researchers and developers to realize operational mobile applications for one stop and location based GI retrieval.},
	journal = {Computers, Environment and Urban Systems},
	author = {Sun, Ziheng and Di, Liping and Heo, Gil and Zhang, Chen and Fang, Hui and Yue, Peng and Jiang, Lili and Tan, Xicheng and Guo, Liying and Lin, Li},
	year = {2017},
	keywords = {Geospatial cloud, Geospatial mobile application, Geospatial web service, LBS, One-stop service},
	pages = {156--167},
	file = {Attachment:/Volumes/mini-disk1/Google Drive/_lib/zotero/storage/QM2M8SAI/2017 - Sun et al. - GeoFairy Towards a one-stop and location based Service for Geospatial Information Retrieval.pdf:application/pdf}
}

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